For decades, ferromagnetic materials have driven technologies like magnetic hard drives, magnetic random access memories and ...

MIT physicists have demonstrated a new form of magnetism that could one day be harnessed to build faster, denser, and less power-hungry "spintronic" memory chips.

To investigate the effect of bump structure on electromigration (EM) performance, four bump structures were designed: Cu/solder/OSP, Cu/Ni/solder/OSP, Cu/solder/ENEPIG, and Cu/Ni/solder/ENEPIG. The EM ...

Forgotten property of the electron Physical discovery opens up new avenues for 'orbitronics' Date: May 20, 2025 Source: Forschungszentrum Juelich Summary: The orbital angular momentum of electrons ...

MIT physicist 'Riccardo Comin' successfully mapped an electron’s shape in motion, unlocking breakthroughs in quantum physics, superconductors, and quantum computing.

Ehime University researchers investigate valence electron behavior in antiferromagnetic crystals, shedding light on quantum spin liquids and superconductivity.

Cable bacteria embed a network of conductive protein fibers in their cell envelope that efficiently guides electron transport over distances spanning up to several centimeters. This form of ...

In this study, the team employed a nickel catalyst as the electron shuttle and used N, O-acetals and alkyl halides as the alkylating agents to accomplish the dialkylation of unactivated alkenes.

In atomic physics and quantum chemistry, the electron configuration is the arrangement of electrons in an atom, molecule, or other physical structure (e.g., a crystal). Like other elementary ...